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As you increase altitude, the outside air pressure decreases as well, but at a known rate.
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Air pressure it decreases as altitude increases.
| 1entails
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Atmospheric pressure decreases with increasing altitude.
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Air pressure it decreases as altitude increases.
| 1entails
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Because atmospheric pressure decreases rapidly with altitude near the surface, a small change in elevation will often produce a significant change in air pressure.
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Air pressure it decreases as altitude increases.
| 1entails
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In the atmosphere, the pressure of the air decreases with increasing altitude.
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Air pressure it decreases as altitude increases.
| 1entails
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It is expected, however, that the magnitude of the loads will increase with decreasing altitude and increasing dynamic pressure.
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Air pressure it decreases as altitude increases.
| 0neutral
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It too decreases slowly as you increase in altitude because relative humidity is the relative amount of water vapor that air can contain for a given temperature and pressure.
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Air pressure it decreases as altitude increases.
| 0neutral
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Most measurably, as altitude increases, air becomes less dense, decreasing atmospheric pressure.
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Air pressure it decreases as altitude increases.
| 1entails
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Remembering that pressure decreases as altitude increases, a relationship between pressure and altitude is established.
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Air pressure it decreases as altitude increases.
| 1entails
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The atmospheric pressure decreases with altitude.
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Air pressure it decreases as altitude increases.
| 1entails
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The decrease in air pressure as height increases.
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Air pressure it decreases as altitude increases.
| 1entails
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The decrease of air density with altitude is accompanied by a decline in air pressure.
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Air pressure it decreases as altitude increases.
| 1entails
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The pressure of the atmosphere decreases with increasing altitude.
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Air pressure it decreases as altitude increases.
| 1entails
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The resulting area of the basic shape should decrease as the altitude is increased, i.e., the pressure decreases as the altitude increases.
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Air pressure it decreases as altitude increases.
| 1entails
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Therefore, air pressure decreases as we increase altitude.
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Air pressure it decreases as altitude increases.
| 1entails
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This means that air pressure decreases with increasing altitude.
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Air pressure it decreases as altitude increases.
| 1entails
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We have described vertical variations in air pressure (air pressure decreases with increasing altitude) in a previous lecture.
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Air pressure it decreases as altitude increases.
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You probably also know that air pressure decreases as the altitude increases.
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Air pressure it decreases as altitude increases.
| 1entails
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Baking soda is a chemical base that reacts with the acid in the brown sugar to create carbon dioxide and water.
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Carbon dioxide chemically weather rocks by creating acids.
| 0neutral
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Calcite in the rock created bubbles of carbon dioxide.
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Carbon dioxide chemically weather rocks by creating acids.
| 0neutral
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Carbon dioxide is an acid gas.
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Carbon dioxide chemically weather rocks by creating acids.
| 0neutral
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Carbon dioxide that diffuses into the red blood cell can chemically combine with water to from carbonic acid .
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Carbon dioxide chemically weather rocks by creating acids.
| 0neutral
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Carbon dioxide, an important greenhouse gas, dissolves in rainwater to form carbonic acid which weathers silicate rock to form carbonates óa particularly common form being limestone.
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Carbon dioxide chemically weather rocks by creating acids.
| 1entails
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Centuries of chemical erosion slowly formed these caverns inside Humpback Mountain when carbon dioxide combined with water to make carbonic acid and began dissolving calcium carbonate in the rock along its course.
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Carbon dioxide chemically weather rocks by creating acids.
| 1entails
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Describes the phenomenon from a chemical standpoint emphasizing the role of sulfuric acid, chlorofluorocarbons, carbon monoxide, carbon dioxide, and nitric acid.
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Carbon dioxide chemically weather rocks by creating acids.
| 0neutral
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In normal aerobic metabolism by plants and animals the acids are oxidized to carbon dioxide plus chemical energy, but in the absence of oxygen the acids accumulate.
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Carbon dioxide chemically weather rocks by creating acids.
| 0neutral
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It reacts with acids to make carbon dioxide.
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Carbon dioxide chemically weather rocks by creating acids.
| 0neutral
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ORGANIC MATERIAL means any chemical compound of carbon excluding carbon monoxide, carbon dioxide, carbonic acid, metallic carbonates, metallic carbides and ammonium carbonates.
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Carbon dioxide chemically weather rocks by creating acids.
| 0neutral
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Since carbonic acid in seawater is in chemical equilibrium with atmospheric carbon dioxide, extraction of carbon from seawater has been studied.
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Carbon dioxide chemically weather rocks by creating acids.
| 0neutral
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The chemical tank held 40 gallons of bicarbonate soda and water solution, to which sulfuric acid was added at the fire scene, creating carbon dioxide gas to force the water from the tank.
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Carbon dioxide chemically weather rocks by creating acids.
| 0neutral
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The reaction of carbon dioxide with water in the soil produces carbonic acid (H 2 CO 3 ) which determines the rate of rock weathering in most ecosystems.
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Carbon dioxide chemically weather rocks by creating acids.
| 1entails
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The reduction of carbon dioxide, a low-energy compound, creates a store of chemical energy.
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Carbon dioxide chemically weather rocks by creating acids.
| 0neutral
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The source of natural acid for rock weathering is dissolved carbon dioxide in water.
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Carbon dioxide chemically weather rocks by creating acids.
| 1entails
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This acid weathers rocks, ultimately producing calcium carbonate.
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Carbon dioxide chemically weather rocks by creating acids.
| 0neutral
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This includes sample assessment, chemical pretreatment, combustion or acid decomposition to carbon dioxide and chemical synthesis to graphite.
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Carbon dioxide chemically weather rocks by creating acids.
| 0neutral
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This is because as rocks weather, the elements in them combine with the carbon dioxide in the atmosphere to create calcium carbonate, which gets stored in the oceans.
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Carbon dioxide chemically weather rocks by creating acids.
| 0neutral
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When added to an acid, a carbonate will produce carbon dioxide, water and a chemical salt.
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Carbon dioxide chemically weather rocks by creating acids.
| 0neutral
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c) organic acids and carbon dioxide.
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Carbon dioxide chemically weather rocks by creating acids.
| 0neutral
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chemical compounds of carbon excluding carbon monoxide, carbon dioxide, carbonic acid, metallic carbides, metallic carbonates, and ammonium carbonate
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Carbon dioxide chemically weather rocks by creating acids.
| 0neutral
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As air continues to rise rapidly causing the ongoing heavy convection in the eyewall, there is a pocket of air immediately inside of the eyewall of the hurricane that sinks toward the water or ground.
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Rises then sinks does deeper material cause convection in the mantle.
| 0neutral
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Convection is the rising of hot material and the sinking of cooler material, similar to the process of water boiling.
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Rises then sinks does deeper material cause convection in the mantle.
| 1entails
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For example when you turn on your radiator, despite the name the room is heated by convection, as the air is heated above the radiator, it expands, rises and the cooler, denser air sinks causing a convection current around the room.
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Rises then sinks does deeper material cause convection in the mantle.
| 0neutral
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Hot plumes of material rise towards the surface, cool by convecting with mantle ( causing volcanoes ) then plunge back down.
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Rises then sinks does deeper material cause convection in the mantle.
| 1entails
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In combination with the potential instability the lifting probably caused the release of static instability and gave rise to deep convection.
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Rises then sinks does deeper material cause convection in the mantle.
| 0neutral
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Many geologists believe that huge convection currents mix this part of the mantle as it rises toward the asthenosphere, cools, and sinks back toward the core again.
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Rises then sinks does deeper material cause convection in the mantle.
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Professor Robert van der Hilst and his collaborators demonstrated conclusively that convection in the Earth's mantle involves tectonic plates sinking from Earth's surface deep into the lower mantle and later found evidence for compositional stratification at larger depth than hitherto thought.
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Rises then sinks does deeper material cause convection in the mantle.
| 0neutral
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The circulation of mantle rock as it rises to the top of the asthenosphere, cools, and then sinks is known as a convection current.
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Rises then sinks does deeper material cause convection in the mantle.
| 1entails
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The heights will sink and the deeps will rise;
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Rises then sinks does deeper material cause convection in the mantle.
| 0neutral
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The volcanism of the Eifel is thought to be partly caused by the Eifel hotspot, a place where hot material from deep in the mantle rises to the surface, and partly by melt-ascent at deep fractures in the Earth's crust.
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Rises then sinks does deeper material cause convection in the mantle.
| 0neutral
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Transient (short-lived) rising deep mantle plumes causing flood basalts are not credible.
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Rises then sinks does deeper material cause convection in the mantle.
| 0neutral
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Another example of thermal radiation is the heat that comes from the Sun to the Earth.
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Heat travels from the sun to the earth thermal radiation from the sun.
| 1entails
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Currently this cooling is responsible for a fine thermal > balance between the heat from the core reactor, the heat from the Sun > and the radiation of heat into space, so that the average temperature > on Earth is about 13 deg C.
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Heat travels from the sun to the earth thermal radiation from the sun.
| 0neutral
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During the day, the balloons were heated by the sun, and at night, they were heated by trapping thermal radiation from the warmer, lower Earth surface.
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Heat travels from the sun to the earth thermal radiation from the sun.
| 0neutral
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Heat flows from the sun to the earth via thermal radiation and from the earth to the depths of space via thermal radiation.
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Heat travels from the sun to the earth thermal radiation from the sun.
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The earth s sun is at an equivalent blackbody temperature of about 5762 K. 5.4 Combined Modes of Heat Transfer EXAMPLES One for thermal resistance One for convection One for radiation
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Heat travels from the sun to the earth thermal radiation from the sun.
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The sun is not the source of heat for the earth.
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Heat travels from the sun to the earth thermal radiation from the sun.
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This is how the sun heats the earth.
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Heat travels from the sun to the earth thermal radiation from the sun.
| 0neutral
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Explain the action of lysozyme and penicillin on the bacterial cell wall.
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A lysozyme destroys bacteria by digesting their cell walls.
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He found that the bacterium began destroying the walls of the blood cells.
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A lysozyme destroys bacteria by digesting their cell walls.
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Huanglongbing (HLB) is caused by a phloem-limited bacterium that has a true cell wall.
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A lysozyme destroys bacteria by digesting their cell walls.
| 0neutral
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Instead, it is able to recognize at the molecular level a component of a bacterium's cell wall and, having keyed onto this element, break down the wall destroying the foreign organism.
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A lysozyme destroys bacteria by digesting their cell walls.
| 0neutral
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Lacrimal glands located in the superior lateral recesses of each eye secrete the enzyme lysozyme that destroys bacterial cell walls.
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A lysozyme destroys bacteria by digesting their cell walls.
| 1entails
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Lysozyme An enzyme found in white blood cells and in body secretions that destroys bacteria by breaking down their walls (CMD 1997).
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A lysozyme destroys bacteria by digesting their cell walls.
| 1entails
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Lysozyme attaches to bacterial cell wall by binding to a hexasaccharide unit;
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A lysozyme destroys bacteria by digesting their cell walls.
| 0neutral
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Some of these proteins are antimicrobial, attacking molecules in the cell wall of a bacterium or fungus.
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A lysozyme destroys bacteria by digesting their cell walls.
| 0neutral
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The assay for lysozyme activity is that of Shugar (6), based on hydrolysis of a cell-wall suspension from the bacterium Micrococcus lysodeikticus, a substrate that is particularly sensitive to lysozyme.
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A lysozyme destroys bacteria by digesting their cell walls.
| 0neutral
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The bacterium binds to the walls of the broken cells and enters these dead cells.
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A lysozyme destroys bacteria by digesting their cell walls.
| 0neutral
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The cell wall weakens and the bacterium bursts.
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A lysozyme destroys bacteria by digesting their cell walls.
| 0neutral
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These cells will be harvested by centrifugation, and the cell pellet will be resuspended in a buffer containing lysozyme, an enzyme that digests bacterial cell walls causing the cells to lyse.
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A lysozyme destroys bacteria by digesting their cell walls.
| 1entails
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This allows the bacterium to synthesize a cell wall and thus grow.
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A lysozyme destroys bacteria by digesting their cell walls.
| 0neutral
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Without cholesterol (such as in a bacterium) a cell would need a cell wall.
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A lysozyme destroys bacteria by digesting their cell walls.
| 0neutral
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if the antigens are attached to the surface of a cell like a bacterium, the cell too is destroyed.
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A lysozyme destroys bacteria by digesting their cell walls.
| 0neutral
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these chemicals are components of a bacterial cell wall and are released when the bacterium dies or is destroyed.
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A lysozyme destroys bacteria by digesting their cell walls.
| 0neutral
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treating cells with lysozyme and sonicating;
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A lysozyme destroys bacteria by digesting their cell walls.
| 0neutral
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All bodies expand with heat and contract with cold;
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The liquid in a thermometer expands or contracts to respond to heat or cold.
| 0neutral
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Because the naturally occurring, silvery liquid expands and contracts evenly with temperature and pressure changes, it is ideal for use in such things as thermometers and vacuum gauges (manometers).
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The liquid in a thermometer expands or contracts to respond to heat or cold.
| 1entails
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Brass does not bind, expand in heat or contract in cold.
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The liquid in a thermometer expands or contracts to respond to heat or cold.
| 0neutral
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Conventional thermometers are filled with a liquid (alcohol, mercury, or water) that expands or contracts with a change in the temperature.
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The liquid in a thermometer expands or contracts to respond to heat or cold.
| 1entails
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Fiberglass expands and contracts with heat and cold, so that just filling the hole with putty won't seal it.
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The liquid in a thermometer expands or contracts to respond to heat or cold.
| 0neutral
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God causes water to expand and contract as other substances do, according to the rule that heat expands and cold contracts.
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The liquid in a thermometer expands or contracts to respond to heat or cold.
| 0neutral
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Heat expands things, while cold contracts.
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The liquid in a thermometer expands or contracts to respond to heat or cold.
| 0neutral
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Heat makes air expand, cold makes air contract.
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The liquid in a thermometer expands or contracts to respond to heat or cold.
| 0neutral
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Mercury's ability to expand and contract with even slight changes of temperature and pressure have made it the liquid of choice for use in thermometers, barometers, hydrometers, and other pieces of equipment.
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The liquid in a thermometer expands or contracts to respond to heat or cold.
| 1entails
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Molecules expand with heat and contract with cold.
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The liquid in a thermometer expands or contracts to respond to heat or cold.
| 0neutral
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Thermometers measure temperature with a bulb of liquid mercury that can expand or contract as the temperature changes.
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The liquid in a thermometer expands or contracts to respond to heat or cold.
| 1entails
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Third, heat expands, cold contracts.
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The liquid in a thermometer expands or contracts to respond to heat or cold.
| 0neutral
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This property combined with the fact that mercury expands and contracts evenly with changes in temperature, it is an ideal material for liquid thermometers and barometers.
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The liquid in a thermometer expands or contracts to respond to heat or cold.
| 1entails
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Watch a video showing solids expanding when heated and gases contracting when cooled (involves fire, liquid nitrogen and a balloon).
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The liquid in a thermometer expands or contracts to respond to heat or cold.
| 0neutral
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When exposed to extreme heat or cold the media will expand or contract.
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The liquid in a thermometer expands or contracts to respond to heat or cold.
| 0neutral
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it does not greatly expand or contract when exposed to heat or cold;
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The liquid in a thermometer expands or contracts to respond to heat or cold.
| 0neutral
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or, it might be a little too tight, so it knocks when it expands and contracts from heat and cold.
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The liquid in a thermometer expands or contracts to respond to heat or cold.
| 0neutral
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these expand and contract with heat and cold.
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The liquid in a thermometer expands or contracts to respond to heat or cold.
| 0neutral
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they dilate in heat and contract in cold.
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The liquid in a thermometer expands or contracts to respond to heat or cold.
| 0neutral
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School of Physics Historical Collection Delezenne's Circle Philip Harris, early 20th century This instrument demonstrates how an electric current is produced in a coil of wire (on the wooden ring) when the coil is rotated through the earth's magnetic field.
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The magnetic field produced by a current in a wire moves in concentric circles.
| 0neutral
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Since a magnetic field is produced around a current carrying wire, the magnetic field around the coil of wire circling the compass is what causes the compass needle to be deflected.
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The magnetic field produced by a current in a wire moves in concentric circles.
| 0neutral
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The magnetic field lines of a straight current-carrying wire form concentric circles around the wire.
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The magnetic field produced by a current in a wire moves in concentric circles.
| 1entails
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3) The solubility of gases typically decreases with increasing temperature.
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When the solubility of gases in liquids changes with increasing temperature, it decreases.
| 1entails
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A device for moving liquid or gas by decreasing or increasing the pressure on it.
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When the solubility of gases in liquids changes with increasing temperature, it decreases.
| 0neutral
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An increase in temperature results in a decrease in gas solubility in water, while a decrease in temperature results in an increase in gas solubility.
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When the solubility of gases in liquids changes with increasing temperature, it decreases.
| 1entails
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Decreasing the volume of a gas or increasing the temperature of a gas, liquid, or solid will increase the pressure (the speed of the molecules), leading to an increase in kinetic energy.
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When the solubility of gases in liquids changes with increasing temperature, it decreases.
| 0neutral
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For example, the solubility of gases decreases with increasing temperature.
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When the solubility of gases in liquids changes with increasing temperature, it decreases.
| 1entails
|
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